AR0141CS
Table 28. OPERATING CURRENT IN HiSPi OUTPUT AND LINEAR MODE
Definition
Condition
Symbol
Min
Typ
Max
Unit
Digital Operating Current
Streaming,1280x720 60 fps
IDD
–
147
170
mA
Analog operating current
Streaming,1280x720 60 fps
IAA
–
20
30
mA
Pixel Supply Current
Streaming,1280x720 60 fps
IAA_PIX
–
1.5
3
mA
PLL Supply Current
Streaming,1280x720 60 fps
IDD_PLL
–
5
9
mA
SLVS Supply Current
Streaming,1280x720 60 fps
IDD_SLVS
–
8
15
mA
HiVCM Supply Current
Streaming,1280x720 60 fps
IDD
–
22
25
mA
1. VAA = VAA_PIX = VDD_PLL = 2.8 V
VDD = VDD_IO = 1.8 V
VDD_SLVS = 1.8 V for HiVCM and = 0.4 V for SLVS
PLL Enabled and PIXCLK = 74.25 MHz
1x analog gain, 0.36 ms integration time, 60 fps, dark conditions
TJ = 25°C
Table 29. STANDBY CURRENT CONSUMPTION
Definition
Condition
Soft Standby (Clock Off)
Analog, 2.8 V
Digital, 1.8 V
Soft standby (Clock On)
Analog, 2.8 V
Digital, 1.8 V
1. Analog = VAA + VAA_PIX + VDD_PLL
2. Digital = VDD_IO + VDD_SLVS
HiSPi Electrical Specifications
NOTE: Refer to “High−Speed Serial Pixel Interface
Physical Layer Specification v2.00.00” for
further explanation of the HiSPi transmitter
specification. The electrical specifications below
supersede those given in the HiSPi Physical
Layer Specification.
Symbol
−
−
−
−
Min
Typ
Max
Unit
–
0
0.1
mA
–
0.1
0.25
mA
–
0.01
0.2
mA
–
26
30
mA
Table 30. SLVS POWER SUPPLY AND OPERATING TEMPERATURE
Parameter
Symbol
Min
SLVS Current Consumption (Note 1, 2)
IDD_TX
HiSPi PHY Current Consumption (Note 1, 2)
IDD_HiSPi
Operating Temperature
1. Temperature of 25°C
2. Up to 600 Mbps
TA
−30
Table 31. SLVS ELECTRICAL DC SPECIFICATION
Parameter
Symbol
SLVS DC Mean Common Mode Voltage
VCM
SLVS DC Mean Differential Output Voltage
|VOD|
Change in VCM between Logic 1 and 0
ΔVCM
Change in |VOD| between Logic 1 and 0
|VOD|
VOD noise margin
NM
Difference in VCM between any Two Channels
|ΔVCM|
Difference in VOD between any Two Channels
|ΔVOD|
Min
0.45 × VDD_TX
0.36 × VDD_TX
Typ
Typ
0.5 × VDD_TX
0.5 × VDD_TX
Max
Unit
18
mA
45
mA
70
°C
Max
0.55 × VDD_TX
0.64 × VDD_TX
25
25
±30
50
100
Unit
V
V
mV
mV
%
mV
mV
www.onsemi.com
42